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Contribution to the study of the pseudobinary Zr1Nb-Oxygen phase diagram by local oxygen measurements of Zr1Nb fuel cladding after high temperature oxidation

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Original title:Contribution to the study of the pseudobinary Zr1Nb-Oxygen phase diagram by local oxygen measurements of Zr1Nb fuel cladding after high temperature oxidation
Authors:M. Negyesi, J. Burda, V. Klouček, J. Lorinčík, Jiří Sopoušek, J. Kabátová, L. Novotný, S. Linhart, T. Chmela, J. Siegl, V. Vrtílková
Further information
Citation:NEGYESI, M., J. BURDA, V. KLOUČEK, J. LORINČÍK, Jiří SOPOUŠEK, J. KABÁTOVÁ, L. NOVOTNÝ, S. LINHART, T. CHMELA, J. SIEGL a V. VRTÍLKOVÁ. Contribution to the study of the pseudobinary Zr1Nb-Oxygen phase diagram by local oxygen measurements of Zr1Nb fuel cladding after high temperature oxidation. JOURNAL OF NUCLEAR MATERIALS, Elsevier, 2012, roč. 420, 1-3, s. 314-319. ISSN 0022-3115. doi:10.1016/j.jnucmat.2011.10.022.Export BibTeX
@article{975024,
author = {Negyesi, M. and Burda, J. and Klouček, V. and Lorinčík, J. and Sopoušek, Jiří and Kabátová, J. and Novotný, L. and Linhart, S. and Chmela, T. and Siegl, J. and Vrtílková, V.},
article_number = {1-3},
doi = {http://dx.doi.org/10.1016/j.jnucmat.2011.10.022},
keywords = {Zirkonium CALPHAD},
language = {eng},
issn = {0022-3115},
journal = {JOURNAL OF NUCLEAR MATERIALS},
title = {Contribution to the study of the pseudobinary Zr1Nb-Oxygen phase diagram by local oxygen measurements of Zr1Nb fuel cladding after high temperature oxidation},
volume = {420},
year = {2012}
}
Original language:English
Field:Nuclear energy
Type:Article in Periodical
Keywords:Zirkonium CALPHAD

This work is concerned with measurement of oxygen concentrations and construction of the pseudobinary Zr1Nb-O phase diagram, acceptable for diffusion models predicting the oxidation behavior of Zr1Nb fuel cladding during thermal transients such as LOCA. Oxygen concentrations were measured in existing phases in the wall of Zr1Nb nuclear fuel cladding tubes after the high-temperature oxidation. The oxygen concentrations at the alpha/alpha + beta phase boundary in the alpha-Zr(O) layer have been determined using WDS method. Oxygen concentrations in the prior beta-Zr were measured using two experimental methods (SIMS and TEA). Consequently, the ceiling of the oxygen concentration in beta-Zr has been assessed based on the results of SIMS, TEA, and microhardness measurements. Eventually, the experimental results were compared to the pseudobinary Zr1Nb-O phase diagram, calculated using CALPHAD software, with satisfactory agreement. The effect of hydrogen was also examined.